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About Course
This 21-hour training course provides an in-depth understanding of Induction Motors, covering essential concepts frequently used in electrical machinery fundamentals, electric motor drives, and ETAP. The course is designed for engineers, technicians, and students looking to enhance their knowledge of induction motor operation, modeling, and control.
π§βπ« About the Speaker
Dr. Loai Al-Adim is an experienced Sales and Tendering Manager at Hitachi Energy (formerly ABB Power Grids), currently based in Amman, Jordan. He is part of the Power Grids β Grid Integration (PGGI) business unit, with extensive experience in high voltage (HV) and medium voltage (MV) substations, power quality solutions, and renewable energy integration.
Dr. Al-Adim has built a strong professional presence in the Levant region (Jordan, Iraq, Syria, Lebanon, and Palestine) and the Maghreb region (Algeria and Tunisia), managing complex projects and driving innovation in power systems. He also serves as the Renewable Segment Manager for the Middle East and Africa (MEA) region under the PGGI business line.
π Academic Degrees & Certifications
Doctorate of Science (DSc., PhD) in Business Innovation in Electrical Power Engineering β Atlantic International University, USA
PhD in Electrical Engineering β Selinus University of Science and Literature, Italy
MBA in Energy and Sustainability β Universidad CatΓ³lica de Murcia (UCAM), Spain
Advanced Program in Artificial Intelligence (AI) for Business Leaders β Airtics Education in partnership with Acacia University, USA
Postgraduate Extended Diploma in Energy and Sustainability β Cambridge International Qualification, UK
Certified Manager Programme β Chartered Management Institute (CMI), UK
MSc in Electrical Power and Control Engineering β Tafila Technical University (TTU), Jordan
BSc in Electric Power Engineering β Al-Balqa’a Applied University (BAU), Jordan
π§ Technical Expertise
Power system analysis, generation, transmission and distribution, electrical machines, HV & MV substations, power quality solutions, renewable energy integration, MATLAB, and ETAP.
Course Content
Lectures
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Lect No 01 Definition and Construction
00:00 -
Lect No 02.1 Principle of Operation RMF
00:00 -
Lect No 02.2 Principle of Operation Induced EMF
00:00 -
Lect No 02.3 Principle of Operation Induced Torque
00:00 -
Lect No 02.4 Animation Video
00:00 -
Lect No 04.1 IM Equivalent Circuit
00:00 -
Lect No 04.2 IM Equivalent Circuit
00:00 -
Lect No 05 Phasor Diagram of IM
00:00 -
Lect No 06.1 Derivation of IM Equ Cir Using Kron’s Model
00:00 -
Lect No 06.2 Derivation of IM Equ Cir Using Kron’s Model
00:00 -
Lect No 06.3 Derivation of IM Equ Cir Using Kron’s Model
00:00 -
Lect No 06.4 Derivation of IM Equ Cir Using Kron’s Model
00:00 -
Lect No 07.1 Determination of IM Model Parameters
00:00 -
Lect No 07.2 Determination of IM Model Parameters
00:00 -
Lect No 08 Power Flow Diagram for IM
00:00 -
Lect No 09 Electromagnetic Torque
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Lect No 09.1 Electromagnetic Torque
00:00 -
Lect No 10 Derivation of Electromagnetic Torque
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Lect No 11 Torque Speed Charactiristic
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Lect No 12 Power Slip Charactiristic
00:00 -
Lect No 13.1 Mahmatical Model 1
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Lect No 13.2 Mahmatical Model 1
00:00 -
Lect No 13.3 Mahmatical Model 1
00:00 -
Lect No 13.4 Mahmatical Model Using Arbitrary Ref Framce & MATLAB Simulation
00:00 -
Lect No 14 1 Speed Control Part 1
00:00 -
Lect No 14.2 Speed Control Variable Voltage, Constant Frequency
00:00 -
Lect No 14.3 Speed Control Variable Frequncy, Constant Voltage
00:00 -
Lect No 14.4 Speed Control Scalar Control V F
00:00
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